Title :
Turbo-Product-Coded QVSB
Author :
Poklemba, John ; Wenzel, David
Author_Institution :
Aerosp. Corp., Chantilly, VA
Abstract :
In this paper, a turbo-product-coded, quadrature-vestigial-sideband (QVSB), digital modulation and coding scheme are presented. This scheme is more complex than the VSB modulation and coding format employed for high-definition television; and it achieves spectral-efficiency performance within 4 to 5dB of the Shannon-Bound, with relatively conservative turbo-product-codes. Special QVSB bandlimiting, which is more restrictive than Nyquist filtering, is used to minimize crosstalk between its dual overlapping, quadrature data channels. To unravel the residual cross-channel interference for detection, a quadrature-crosstalk maximum-likelihood-sequence-estimator (QC-MLSE) is needed. The QC-MLSE output is ´hard- to soft-decision converted´ to improve subsequent decoding performance. An external interleaver was also used to augment the turbo-product-code´s internal helical interleaver, for improved performance
Keywords :
bandlimited communication; high definition television; interleaved codes; maximum likelihood decoding; maximum likelihood sequence estimation; product codes; spectral-domain analysis; turbo codes; QC-MLSE; QVSB; Shannon-bound; bandlimited communication; cross-channel interference; decoding performance; digital modulation; external interleaver; high-definition television; maximum-likelihood-sequence-estimator; quadrature-vestigial-sideband; spectral-efficiency performance; turbo-product-code; Amplitude modulation; Bandwidth; Crosstalk; Data communication; Filtering; Filters; HDTV; Intersymbol interference; Phase modulation; TV; Band-limited communications; intersymbol interference; maximum-likelihood-detection; spectral domain analysis;
Journal_Title :
Broadcasting, IEEE Transactions on
DOI :
10.1109/TBC.2006.883109
